太行山脉北麓不同坡位环境下的白桦林风环境分析OA
Analysis of wind environment for Betula platyphylla forests in different slope positions along the northern foothills of the Taihang mountains
[目的]探明复杂山地环境下林分风环境特征及附近风向流场变化规律,为森林火灾防控提供理论支撑.[方法]以河北省保定市涞源县白石山主峰北坡白桦林为对象,通过野外调查和风环境模拟,对白石山主峰白桦林风环境进行深入分析,构建各坡位白桦林多孔介质模型,初步建立白石山主峰山地模型,为探明白桦林风环境特征及防火效能的内在机理奠定基础.[结果]1)风速流场在各坡位环境下均在林分迎风面形成了明显的波动变化区,随着初始风速的增加,上坡位低风速区逐步向东移动,中坡位和下坡位低风速区范围相对较小.2)风向流场在各坡位林分附近变化规律不同,上边界层气流较平稳;过渡层受林分风障效应影响显著,气流扰动加剧并产生不规则波动,林分上空的无规则气体扰动较非林分区明显减弱;下边界层因树干疏透度高,风障效应不明显,气流方向变动频繁.3)林分附近的气流扰动会改变局部气流方向,从而影响火势发展方向;同时,地形和林分结构可对局部风速产生加速作用,改变火势蔓延速度.风环境模拟分析结果表明,上坡位林分区域的防火难度显著高于其他坡位.[结论]各样地林分对气流风速均有衰减作用,但在不同初始风速条件下,风速流场与风向流场的变化特征存在差异.坡位环境与初始风速共同作用对火行为产生影响,增加了防火难度.
[Objective]To elucidate wind environment characteristics of forest stands and directional flow field variations near stands in complex mountainous terrains,providing theoretical support for forest fire prevention and control.[Method]This study examined birch forests on the northern slope of the main peak of Baishi mountain in Laiyuan County,Baoding City,Hebei Province.Through field investigations and wind environment simulation experiments,we conducted an in-depth analysis of the wind environment.Porous media models for birch forests at different slope positions were constructed,and a preliminary mountain terrain model of the main peak was established,laying the foundation for revealing the intrinsic mechanisms underlying wind environment characteristics and fire prevention efficacy in birch forests.[Result]1)Wind velocity flow fields:distinct fluctuating zones formed on the windward side of forest stands across all slope positions.As initial wind speed increased,the low-velocity area at upper slope positions gradually shifted eastward,while those at middle and lower slope positions exhibited relatively smaller spatial extents;2)Wind direction flow fields:near stands across all slope positions,airflow remained relatively stable in the upper boundary layer.The transition layer exhibited significant airflow disturbances with irregular fluctuations due to the wind-blocking effect of stands.Notably,irregular airflow perturbations above stands were substantially weaker than in non-forested areas.In the lower boundary layer,high trunk porosity minimized wind-blocking effects,resulting in frequent directional changes of airflow;3)Airflow disturbances near forest stands altered local wind directions,thereby influencing fire spread trajectories.Concurrently,terrain morphology and stand structure synergistically accelerated localized wind speeds,increasing fire propagation rates.Wind environment simulations demonstrated significantly higher fire prevention complexity at upper slope positions than at other slope positions.[Conclusion]All forest stands attenuated airflow velocity,yet wind velocity and direction flow fields responded heterogeneously under varying initial wind speeds.The combined effects of slope positions and initial wind speeds modulated fire behavior(direction and intensity),amplifying fire prevention challenges.
王振宇;王风涛;王冰鹤;郝天琳;谷建才
保定市涞源县自然资源和规划局,河北 保定 074300河北农业大学 林学院,河北 保定 071000河北农业大学 林学院,河北 保定 071000河北农业大学 林学院,河北 保定 071000保定市涞源县自然资源和规划局,河北 保定 074300
农业科技
太行山脉北麓白桦林风环境流场坡位
northern foothills of the Taihang mountainsBetula platyphylla forestwind environmentflow fieldsslope position
《中南林业科技大学学报》 2026 (4)
31-37,7
国家重点研发计划项目(2016YFC0500802).
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